.
top unblocked 76 games free
access unblocked games 76 now
latest unblocked online games
kays games unblocked access
retro bowl unlimited play
play retro bowl without block
cool math brain games free
school-friendly unblocked games
yohoho io game online
lesson guru hack and help
play baseball bros unblocked
classroom 6x games to play
76
Design Course
Designing of Plastic Products for Injection Moulding
Manufacturing Methods and Technologies
by
Wall Thickness
Wall thickness is referred to the thickness of the part produced. Wall thickness depends upon the strength required. Plastics are poor conductor of heat and thicker section take time to cool and are costly to manufacture. Since there is a temperature gradient with in the part which led to development of thermal stresses which causes shrinkage, warpage etc. so wall thickness should be optimized considering these factors. Two parts with similar geometry but different wall thickness have different filling and cooling time since the minimum cooling time (Tc) is directly proportional to the square of the wall thickness (t) of the part.
A sudden change in the cross section causes the turbulence in the flow of the melt and this turbulence is responsible for the air entrapment and mold deterioration. Therefor it is advisable to have a gradual transition between changing sections.
Thicker section will take more time to cool than thinner section this will cause the development of thermal stresses in the part and part will get deformed
If thicker sections are unavoidable then provide radius at the edges or a slight chamfer, provide a core or provide ribs.
Design Considerations
- Always try to keep wall thickness uniform
- There should be gradual transition between changing sections.
- Wall thickness for reinforced materials 0.75 mm to 3 mm and for unreinforced material it is 0.5 mm to 5 mm